Top Engineering College in Bhubaneswar

School of Engineering and Technology

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School of Engineering and Technology

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School of Engineering and Technology committed to Sustainable Development Goal 9: “INDUSTRY, INNOVATION AND INFRASTRUCTURE”

School of Engineering and Technology (SoET) is an open platform for diverse voices where teaching runs parallel to the real world and students are groomed to join the global workforce. Apart from SDG 9 the school contributes significantly to SDGs 4,6,7,14 and 15. SoET is distinguished as one of the top-ranked engineering schools in India. The students at SoET benefit through the professional grooming of renowned faculty and industry experts who have had the experience of tackling pressing multidisciplinary engineering problems.

A student-centric pedagogy, project-based approach and design-driven curriculum provide students with an inclination for complex problem solving, design, innovation, and a passion for learning.

The mission of the School of Engineering and Technology through its various programmes is to build individuals who possess technical competence, community centricity and are driven to make transformational change.


All our campuses are an oasis of greenery, environmentally friendly buildings and excellent facilities to ensure it’s a “home away from home”. The campus has multiple sports facilities such as international standard basketball and tennis courts, flood lit multi-purpose playground and cricket practice pitches. Besides our dedicated hostels and mess facilities, campus also has multiple shops/marketplaces that act as excellent locations for the students to meet and socialize with their peers. Other facilities also include dedicated banking counter, ATM as well as a dispensary (with a doctor and three paramedical staff and an ambulance).


The School has well-equipped library with broad band Wi-Fi connectivity. It provides a sound physical and digital learning environment round the clock. The learning materials are in the Printed, Audio and Visual form. The library is integrated into the University’s Management Information System (MIS). It deploys Open Access system with different work stations.



Being a residential program, the School encourages students and faculty to live on campus. There are dedicated hostels for boys and girls offering multiple configuration/options. About 80% students and 50% faculty and supporting staff stay on campus. There are multiple hostels spread across the campuses to ensure comfortable and safe accommodation that encourages social interactions as well as space to study and relax.

Clubs and Extra Curricular Activities:

Besides extensive sports facilities and events, there are student run Health Club, Yoga Club, Adventure Club, Meditation Club and Karate Club under the guidance of respective faculty in-charges. The students regularly participate in cultural, NSS, NCC and other socially responsible activities.


The programmes under the School of Engineering & Technology are designed to enable students to:

  • Gain sufficient knowledge and understanding of the appropriate scientific and mathematical fundamentals necessary to develop their professional skills
  • Be proficient in integrating knowledge and applying their understanding in identifying problems and producing powerful solutions
  • Have awareness and understanding of different cultures and social conditions
  • Attain professional competence, intellectual maturity and personal growth along with a commitment for ethical development of the industry
  • Have effective written, oral, and graphic communication skills
Key Highlights
  • Possibility and ability to secure an industry certification along with the degree
  • Best in class facilities such as High-Performance Computing Labs, IoT enabled labs, drones for multiple applications, design labs quipped with Dassault Systems 3DS platform
  • On campus industry class production facilities for areas such as transformers, renewable energy, wood engineering, precision engineering and apparel manufacturing
  • Opportunities to pursue multi-disciplinary areas such as smart infrastructure, e-mobility, and digital design using digital technologies (AI/ML, IoT, Analytics and AR/VR)
  • 100% support for placements through counselling and training on verbal/written communication, logical/analytical reasoning and quantitative aptitude along with personal interview and group discussions
  • Opportunity to do industrial internships as well as work in industry class on-campus manufacturing operations
  • University owned best in class equipment such as 5 axis CNC machine and 3D printers
  • Strong industry linkages with frequent interactions with leading scientists and professionals


Sewage treatment plant:

Looking towards the growing environmental pollution, the quality of water has become both public health and agriculture concern. Hence waste water needs to be decontaminated, especially domestic sewage. In the past, domestic waste water treatment was mainly confined to organic carbon removal. Recently, increasing pollution in the waste water leads to developing and implementing new treatment techniques to control nitrogen and other priority pollutants. Pollution in its broadest sense includes all changes that curtail natural utility and exert deleterious effect on life. The crisis triggered by the rapidly growing population and industrialization with the resultant degradation of the environment causes a great threat to the quality of life. Degradation of water quality is the unfavourable alteration of the physical, chemical and biological properties of water that prevents domestic, commercial, industrial, agricultural, recreational and other beneficial uses of water. Sewage and sewage effluents are the major sources of water pollution. Sewage is mainly composed of human faecal material, domestic wastes including washwater and industrial wastes. Sewage Treatment Plant is a facility designed to receive the waste from domestic, commercial and industrial sources and to remove materials that damage water quality and compromise public health and safety when discharged into water receiving systems. It includes physical, chemical, and biological processes to remove various contaminants depending
on its constituents. Using advanced technology it is now possible to re-use sewage effluent for drinking water.

Plant capacity:
• Maximum daily demand = 180 lit/day
• Average water supply per day = 180 x 1550 =279000 lit = 279cu.m
• Average sewage generated per day = 85% of supplied water
= 0.85 x 279=223 m3
• Average sewage generated per hour=223/24=9.29 cu.m/hr
• Peak factor = 3
• Design flow capacity (maximum) = 9.29 x 3=27.85 cu.m/hr

Layout of STP

Waste to Wealth Innovation Initiative at Bhubaneswar Patho Utsav:

The Waste to Wealth Innovation Initiative of our University in collaboration with India Craft Nation (ICN) showcased the artistic talent in front of thousands of people. BDA / BMC officials and the Public really appreciated the innovative talent of our team.

A Quiz and Poster Presentation competition was held on World Water Day:



Reports addressing various sustainability goals:

Fly ash cluster
Iron ore cluster
Water treatment



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